Adhesive fascial tape having a composite material of natural fibers, such as cotton, artificial fibers, such as nylon, polyester and elastomer or a combination thereof forming plied or cabled filament yarns forming an openwork structure with a plain, twill or satin weave of at least 3 and up to 10 is provided, which may be broken or crossed both in weft and in warp, and where the weft yarns of the structure have a density of 1-35 picks/cm and the warp threads 1-40 ends/cm. Attached to the said tape is a lower layer of synthetic acrylic resin adhesive having spaces or lines without adhesive, creating a symmetric repetitive sinuous pattern with an angle of 45 with respect to the weft.

A fiber-reinforced composite article useful in supporting or immobilizing an injured body part is disclosed. The composite is a multi-layer, flexible precursor including fiber reinforcement plies, which can be rapidly cured into a rigid body using a thermosetting resin. Methods of making and using the same are also disclosed, along with kits containing such composite articles.

A fiber-reinforced composite article useful in supporting or immobilizing an injured body part is disclosed. The composite is a multi-layer, flexible precursor including fiber reinforcement plies, which can be rapidly cured into a rigid body using a thermosetting resin. Methods of making and using the same are also disclosed, along with kits containing such composite articles.

An ankle-foot orthosis forming a monolithic structure and include at least two different material components. The first material component has at least one tape layer consisting of a continuous fiber-reinforced thermoplastic composite, and a second polymeric material component surrounds at least in part the tape and includes a thermoplastic material into which the first material component is embedded. A resin material of the first material component is bonded to the second polymeric material component.

A device comprising a casing and having an initial configuration, an intermediate configuration, and a final configuration, wherein in the initial configuration the casing contains: a plurality of beads, a rupturable first container containing one or more isocyanates and a rupturable second container containing one or more polyols. In the final configuration the casing is substantially filled by a polyurethane in which the plurality of beads is embedded. In the intermediate configuration the device is transformed from the initial configuration to the final configuration by rupturing the first container and rupturing the second container so that the one or more isocyanates react with the one or more polyols in a reaction that forms the polyurethane. As the polyurethane is formed during the reaction the polyurethane surrounds the plurality of beads. The casing includes one or more vent tubes configured to allow gases formed by the reaction to escape the casing.

A finger splint for manual therapy according to the present invention comprises: a base sheet made of a metal material and of a certain length and width to surround a finger; a base hole formed through the center of the base sheet in a rhombus shape; a first hole extending through both upper left and right sides of the base hole along a portion of a periphery of the finger; and a second hole extending through both lower left and right sides of the base hole along the periphery of the finger to correspond to the position and size of the first hole. The finger splint for manual therapy according to the present invention has the effect of providing an excellent and comfortable fit on the basis of an ergonomic structure as well as sufficiently ensuring a basic fixing force.

Cellulose cyanoacrylate is employed either to bond two surfaces or to duplicate the shape of a three-dimensional object. The method is carried out by applying a release material to the object to be duplicated, applying a sheet of cellulosic material formed of wood fibers onto the three dimensional object, then saturating the sheet of cellulosic material with a cyanoacrylate glue and permitting the saturated sheet to cure. The resulting product duplicates the shape of the object. Two surfaces may be bonded by placing a sheet of cellulosic material between the two surfaces and applying the cyanoacrylate glue to edges of the sheet until saturated and allowing it to cure. Paper toweling may favorably be employed as the cellulosic material. This material may also be employed in bone or tooth repair. A break or fracture in an article can be repaired by positioning a sheet of cellulosic material over the break, saturating it with cyanoacrylate glue, and holding the saturated sheet in place with a releasable film. Irritating fumes may be suppressed by covering the saturated cellulosic material with a release film.

Cellulose cyanoacrylate is employed either to bond two surfaces or to duplicate the shape of a three-dimensional object. The method is carried out by applying a release material to the object to be duplicated, applying a sheet of cellulosic material formed of wood fibers onto the three dimensional object, then saturating the sheet of cellulosic material with a cyanoacrylate glue and permitting the saturated sheet to cure. The resulting product duplicates the shape of the object. Two surfaces may be bonded by placing a sheet of cellulosic material between the two surfaces and applying the cyanoacrylate glue to edges of the sheet until saturated and allowing it to cure. Paper toweling may favorably be employed as the cellulosic material. This material may also be employed in bone or tooth repair. A break or fracture in an article can be repaired by positioning a sheet of cellulosic material over the break, saturating it with cyanoacrylate glue, and holding the saturated sheet in place with a releasable film. Irritating fumes may be suppressed by covering the saturated cellulosic material with a release film.

A photocurable device injection system for creating in situ polymerization via light or free-radical to enable fractured bone fixation. The system comprises a photosensitive polymeric resin sensitive to light, temperature, oxygen, enzymes, or a combination thereof. The photosensitive polymeric resin may be configured to cure at room temperature or physiological temperature with a light source. The photosensitive polymeric resin may be configured to depolymerize with ultrasonication, sonication, or a combination thereof. The system further comprises an implantable 3-dimensional biocompatible pouch comprising an optical light guide. The system further comprises one or more micro-sized ultrasonication probes configured to contact a three-dimensional pouch by one or more openings. The one or more probes may be configured to enable polymer outflow.

A self-adhesive compression bandage, in particular for the treatment and prevention of pathologies of venous origin and lymphedema. This bandage is manufactured by the assembling of two self-adhesive nonwovens based on short conjugate fibers which have been crimped. The fibers are preferably made of polyester. The bandage can in addition comprise a supplementary layer.